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J. H. Cai, L. D. Zhang, J. Z. Yang, Y. Y. Li, L. Zhao and F. Qi (2012) Energy 43 94-102.
Date: 2013-08-22   Author: SKLFS  ,   Source: WOS  ,
 

J. H. Cai, L. D. Zhang, J. Z. Yang, Y. Y. Li, L. Zhao and F. Qi (2012) Experimental and kinetic modeling study of tert-butanol combustion at low pressure. Journal/Energy 43 94-102. [In English]
Web link: http://dx.doi.org/10.1016/j.energy.2011.12.024
Keywords: Tert-Butanol, Pyrolysis, Rich flame, SVUV-PIMS, Kinetic model, Decomposition pathway, OXYGENATED HYDROCARBONS, DECOMPOSITION, OXIDATION, PYROLYSIS, ISOMERS, FLAME, PHOTOIONIZATION, ETHANOL
Abstract: Pyrolysis of tert-butanol (2.77% tert-butanol in argon) in a laminar plug flow reactor was studied at low pressure and a temperature range of 950-1850 K. More than 20 pyrolysis species were identified by using synchrotron vacuum ultraviolet photoionization mass spectrometry (SVUV-PIMS), and their mole fraction profiles versus the pyrolysis temperature were evaluated. A kinetic model including 101 species and 511 reactions was developed and validated by both the pyrolysis data and recently reported rich premixed flame data (Combustion and Flame 2011, 158:2-15). Reaction flux analysis demonstrates that the main decomposition reaction sequence of tert-butanol in both pyrolysis and rich flame is tC(4)H(9)OH/IC4H8OH ->, C4H8 ->, C4H7 ->, aC(3)H(4) ->, pC(3)H(4) ->, C2H2. The most remarkable difference is that the H2O elimination reaction is the dominant primary decomposition pathway of tert-butanol in the pyrolysis, while H-abstraction reactions control the primary decomposition of tert-butanol in the rich flame. (C) 2011 Elsevier Ltd. All rights reserved.

 
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